/** @file
File for memory allocation tracking functions.

Copyright (c) 2004 - 2018, Intel Corporation. All rights reserved.<BR>
SPDX-License-Identifier: BSD-2-Clause-Patent

**/

#include "MyAlloc.h"

#if USE_MYALLOC
//
// Get back to original alloc/free calls.
//
#undef malloc
#undef calloc
#undef realloc
#undef free
//
// Start of allocation list.
//
STATIC MY_ALLOC_STRUCT  *MyAllocData = NULL;

//
//
//
STATIC UINT32           MyAllocHeadMagik  = MYALLOC_HEAD_MAGIK;
STATIC UINT32           MyAllocTailMagik  = MYALLOC_TAIL_MAGIK;

//
// ////////////////////////////////////////////////////////////////////////////
//
//
VOID
MyCheck (
  BOOLEAN      Final,
  UINT8        File[],
  UINTN        Line
  )
// *++
// Description:
//
//  Check for corruptions in the allocated memory chain.  If a corruption
//  is detection program operation stops w/ an exit(1) call.
//
// Parameters:
//
//  Final := When FALSE, MyCheck() returns if the allocated memory chain
//           has not been corrupted.  When TRUE, MyCheck() returns if there
//           are no un-freed allocations.  If there are un-freed allocations,
//           they are displayed and exit(1) is called.
//
//
//  File := Set to __FILE__ by macro expansion.
//
//  Line := Set to __LINE__ by macro expansion.
//
// Returns:
//
//  n/a
//
// --*/
//
{
  MY_ALLOC_STRUCT *Tmp;

  //
  // Check parameters.
  //
  if (File == NULL) {
    printf (
      "\nMyCheck(Final=%u, File=NULL, Line=%u)"
      "Invalid parameter(s).\n",
      Final,
      (unsigned)Line
      );

    exit (1);
  }

  if (Line == 0) {
    printf (
      "\nMyCheck(Final=%u, File=%s, Line=%u)"
      "Invalid parameter(s).\n",
      Final,
      File,
      (unsigned)Line
      );

    exit (1);
  }

  if (strlen ((CHAR8 *)File) == 0) {
    printf (
      "\nMyCheck(Final=%u, File=%s, Line=%u)"
      "Invalid parameter.\n",
      Final,
      File,
      (unsigned)Line
      );

    exit (1);
  }
  //
  // Check structure contents.
  //
  for (Tmp = MyAllocData; Tmp != NULL; Tmp = Tmp->Next) {
    if (memcmp(Tmp->Buffer, &MyAllocHeadMagik, sizeof MyAllocHeadMagik) ||
        memcmp(&Tmp->Buffer[Tmp->Size + sizeof(UINT32)], &MyAllocTailMagik, sizeof MyAllocTailMagik)) {
      break;
    }
  }
  //
  // If Tmp is not NULL, the structure is corrupt.
  //
  if (Tmp != NULL) {
    printf (
      "\nMyCheck(Final=%u, File=%s, Line=%u)""\nStructure corrupted!"
      "\nFile=%s, Line=%u, nSize=%u, Head=%xh, Tail=%xh\n",
      Final,
      File,
      (unsigned)Line,
      Tmp->File,
      (unsigned) Tmp->Line,
      (unsigned) Tmp->Size,
      (unsigned) *(UINT32 *) (Tmp->Buffer),
      (unsigned) *(UINT32 *) (&Tmp->Buffer[Tmp->Size + sizeof (UINT32)])
      );

    exit (1);
  }
  //
  // If Final is TRUE, display the state of the structure chain.
  //
  if (Final) {
    if (MyAllocData != NULL) {
      printf (
        "\nMyCheck(Final=%u, File=%s, Line=%u)"
        "\nSome allocated items have not been freed.\n",
        Final,
        File,
        (unsigned)Line
        );

      for (Tmp = MyAllocData; Tmp != NULL; Tmp = Tmp->Next) {
        printf (
          "File=%s, Line=%u, nSize=%u, Head=%xh, Tail=%xh\n",
          Tmp->File,
          (unsigned) Tmp->Line,
          (unsigned) Tmp->Size,
          (unsigned) *(UINT32 *) (Tmp->Buffer),
          (unsigned) *(UINT32 *) (&Tmp->Buffer[Tmp->Size + sizeof (UINT32)])
          );
      }
    }
  }
}
//
// ////////////////////////////////////////////////////////////////////////////
//
//
VOID *
MyAlloc (
  UINTN      Size,
  UINT8 File[],
  UINTN      Line
  )
// *++
// Description:
//
//  Allocate a new link in the allocation chain along with enough storage
//  for the File[] string, requested Size and alignment overhead.  If
//  memory cannot be allocated or the allocation chain has been corrupted,
//  exit(1) will be called.
//
// Parameters:
//
//  Size := Number of bytes (UINT8) requested by the called.
//          Size cannot be zero.
//
//  File := Set to __FILE__ by macro expansion.
//
//  Line := Set to __LINE__ by macro expansion.
//
// Returns:
//
//  Pointer to the caller's buffer.
//
// --*/
//
{
  MY_ALLOC_STRUCT *Tmp;
  UINTN           Len;

  //
  // Check for invalid parameters.
  //
  if (File == NULL) {
    printf (
      "\nMyAlloc(Size=%u, File=NULL, Line=%u)"
      "\nInvalid parameter(s).\n",
      (unsigned)Size,
      (unsigned)Line
      );

    exit (1);
  }

  if (Size == 0 || Line == 0) {
    printf (
      "\nMyAlloc(Size=%u, File=%s, Line=%u)"
      "\nInvalid parameter(s).\n",
      (unsigned)Size,
      File,
      (unsigned)Line
      );

    exit (1);
  }

  Len = strlen ((CHAR8 *)File);
  if (Len == 0) {
    printf (
      "\nMyAlloc(Size=%u, File=%s, Line=%u)"
      "\nInvalid parameter.\n",
      (unsigned)Size,
      File,
      (unsigned)Line
      );

    exit (1);
  }
  //
  // Check the allocation list for corruption.
  //
  MyCheck (0, (UINT8 *)__FILE__, __LINE__);

  //
  // Allocate a new entry.
  //
  Tmp = calloc (
          1,
          sizeof (MY_ALLOC_STRUCT) + Len + 1 + sizeof (UINT64) + Size + (sizeof MyAllocHeadMagik) + (sizeof MyAllocTailMagik)
          );

  if (Tmp == NULL) {
    printf (
      "\nMyAlloc(Size=%u, File=%s, Line=%u)"
      "\nOut of memory.\n",
      (unsigned)Size,
      File,
      (unsigned)Line
      );

    exit (1);
  }
  //
  // Fill in the new entry.
  //
  Tmp->File = ((UINT8 *) Tmp) + sizeof (MY_ALLOC_STRUCT);
  strcpy ((CHAR8 *)Tmp->File, (CHAR8 *)File);
  Tmp->Line   = Line;
  Tmp->Size   = Size;
  Tmp->Buffer = (UINT8 *) (((UINTN) Tmp + Len + 9) &~7);

  memcpy (Tmp->Buffer, &MyAllocHeadMagik, sizeof MyAllocHeadMagik);

  memcpy (
    &Tmp->Buffer[Size + sizeof (UINT32)],
    &MyAllocTailMagik,
    sizeof MyAllocTailMagik
    );

  Tmp->Next   = MyAllocData;
  Tmp->Cksum  = (UINTN) Tmp + (UINTN) (Tmp->Next) + Tmp->Line + Tmp->Size + (UINTN) (Tmp->File) + (UINTN) (Tmp->Buffer);

  MyAllocData = Tmp;

  return Tmp->Buffer + sizeof (UINT32);
}
//
// ////////////////////////////////////////////////////////////////////////////
//
//
VOID *
MyRealloc (
  VOID       *Ptr,
  UINTN      Size,
  UINT8 File[],
  UINTN      Line
  )
// *++
// Description:
//
//  This does a MyAlloc(), memcpy() and MyFree().  There is no optimization
//  for shrinking or expanding buffers.  An invalid parameter will cause
//  MyRealloc() to fail with a call to exit(1).
//
// Parameters:
//
//  Ptr := Pointer to the caller's buffer to be re-allocated.
//
//  Size := Size of new buffer.  Size cannot be zero.
//
//  File := Set to __FILE__ by macro expansion.
//
//  Line := Set to __LINE__ by macro expansion.
//
// Returns:
//
//  Pointer to new caller's buffer.
//
// --*/
//
{
  MY_ALLOC_STRUCT *Tmp;
  VOID            *Buffer;

  //
  // Check for invalid parameter(s).
  //
  if (File == NULL) {
    printf (
      "\nMyRealloc(Ptr=%p, Size=%u, File=NULL, Line=%u)"
      "\nInvalid parameter(s).\n",
      Ptr,
      (unsigned)Size,
      (unsigned)Line
      );

    exit (1);
  }

  if (Size == 0 || Line == 0) {
    printf (
      "\nMyRealloc(Ptr=%p, Size=%u, File=%s, Line=%u)"
      "\nInvalid parameter(s).\n",
      Ptr,
      (unsigned)Size,
      File,
      (unsigned)Line
      );

    exit (1);
  }

  if (strlen ((CHAR8 *)File) == 0) {
    printf (
      "\nMyRealloc(Ptr=%p, Size=%u, File=%s, Line=%u)"
      "\nInvalid parameter.\n",
      Ptr,
      (unsigned)Size,
      File,
      (unsigned)Line
      );

    exit (1);
  }
  //
  // Find existing buffer in allocation list.
  //
  if (Ptr == NULL) {
    Tmp = NULL;
  } else if (&MyAllocData->Buffer[sizeof (UINT32)] == Ptr) {
    Tmp = MyAllocData;
  } else {
    for (Tmp = MyAllocData;; Tmp = Tmp->Next) {
      if (Tmp->Next == NULL) {
        printf (
          "\nMyRealloc(Ptr=%p, Size=%u, File=%s, Line=%u)"
          "\nCould not find buffer.\n",
          Ptr,
          (unsigned)Size,
          File,
          (unsigned)Line
          );

        exit (1);
      }

      Tmp = Tmp->Next;
    }
  }
  //
  // Allocate new buffer, copy old data, free old buffer.
  //
  Buffer = MyAlloc (Size, File, Line);

  if (Buffer != NULL && Tmp != NULL) {
    memcpy (
      Buffer,
      &Tmp->Buffer[sizeof (UINT32)],
      ((Size <= Tmp->Size) ? Size : Tmp->Size)
      );

    MyFree (Ptr, (UINT8 *)__FILE__, __LINE__);
  }

  return Buffer;
}
//
// ////////////////////////////////////////////////////////////////////////////
//
//
VOID
MyFree (
  VOID       *Ptr,
  UINT8 File[],
  UINTN      Line
  )
// *++
// Description:
//
//  Release a previously allocated buffer.  Invalid parameters will cause
//  MyFree() to fail with an exit(1) call.
//
// Parameters:
//
//  Ptr := Pointer to the caller's buffer to be freed.
//         A NULL pointer will be ignored.
//
//  File := Set to __FILE__ by macro expansion.
//
//  Line := Set to __LINE__ by macro expansion.
//
// Returns:
//
//  n/a
//
// --*/
//
{
  MY_ALLOC_STRUCT *Tmp;
  MY_ALLOC_STRUCT *Tmp2;

  //
  // Check for invalid parameter(s).
  //
  if (File == NULL) {
    printf (
      "\nMyFree(Ptr=%p, File=NULL, Line=%u)"
      "\nInvalid parameter(s).\n",
      Ptr,
      (unsigned)Line
      );

    exit (1);
  }

  if (Line == 0) {
    printf (
      "\nMyFree(Ptr=%p, File=%s, Line=%u)"
      "\nInvalid parameter(s).\n",
      Ptr,
      File,
      (unsigned)Line
      );

    exit (1);
  }

  if (strlen ((CHAR8 *)File) == 0) {
    printf (
      "\nMyFree(Ptr=%p, File=%s, Line=%u)"
      "\nInvalid parameter.\n",
      Ptr,
      File,
      (unsigned)Line
      );

    exit (1);
  }
  //
  // Freeing NULL is always valid.
  //
  if (Ptr == NULL) {
    return ;
  }
  //
  // Fail if nothing is allocated.
  //
  if (MyAllocData == NULL) {
    printf (
      "\nMyFree(Ptr=%p, File=%s, Line=%u)"
      "\nCalled before memory allocated.\n",
      Ptr,
      File,
      (unsigned)Line
      );

    exit (1);
  }
  //
  // Check for corrupted allocation list.
  //
  MyCheck (0, (UINT8 *)__FILE__, __LINE__);

  //
  // Need special check for first item in list.
  //
  if (&MyAllocData->Buffer[sizeof (UINT32)] == Ptr) {
    //
    // Unlink first item in list.
    //
    Tmp         = MyAllocData;
    MyAllocData = MyAllocData->Next;
  } else {
    //
    // Walk list looking for matching item.
    //
    for (Tmp = MyAllocData;; Tmp = Tmp->Next) {
      //
      // Fail if end of list is reached.
      //
      if (Tmp->Next == NULL) {
        printf (
          "\nMyFree(Ptr=%p, File=%s, Line=%u)\n"
          "\nNot found.\n",
          Ptr,
          File,
          (unsigned)Line
          );

        exit (1);
      }
      //
      // Leave loop when match is found.
      //
      if (&Tmp->Next->Buffer[sizeof (UINT32)] == Ptr) {
        break;
      }
    }
    //
    // Unlink item from list.
    //
    Tmp2      = Tmp->Next;
    Tmp->Next = Tmp->Next->Next;
    Tmp       = Tmp2;
  }
  //
  // Release item.
  //
  free (Tmp);
}

#endif /* USE_MYALLOC */

/* eof - MyAlloc.c */
